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Impacts of stratum dip angle on CO 2 geological storage amount and security

Fugang Wang, Jing Jing, Tianfu Xu, Yanlin Yang and Guangrong Jin

Greenhouse Gases: Science and Technology, 2016, vol. 6, issue 5, 682-694

Abstract: Storage strata are usually generalized as horizontal when using numerical simulation methods to analyze CO 2 geological storage in saline aquifers. However, horizontal strata are not common in nature. Most strata have gradients, because of the effects of geological structure and diagenesis. Based on the actual strata dip angle variation range of two CO 2 injection demonstration projects in China, five modeling schemes were designed to investigate the impact of formation dip on CO 2 storage amount and space migration of gas‐phase CO 2 in reservoir formation. The results show that the total CO 2 storage amount is inversely proportional to formation dip, and after injection is halted, storage amounts of upper and lower parts of the same stratum reservoir have a reverse trend. Formation dip has a significant impact on the migration of CO 2 . The greater the formation dip, the more significant the effect on CO 2 migration distance. Given the low porosity and permeability of the Shiqianfeng formation reservoir in the case study, when the stratum dip angle is 16°, at centennial time scale, CO 2 migration distance is 47.06% greater than that in the horizontal reservoir. We expect that for storage reservoirs with high porosity and permeability, the influence of formation dip on CO 2 migration will be more significant. Because non‐horizontal strata are predominant in deep saline aquifers in nature, regardless of the influence of formation dip, CO 2 leakage risks in geological storage will be greatly underestimated. Therefore, in research related to CO 2 geological storage, the stratum dip angle must be considered. © 2016 Society of Chemical Industry and John Wiley & Sons, Ltd

Date: 2016
References: View references in EconPapers View complete reference list from CitEc
Citations: View citations in EconPapers (7)

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http://hdl.handle.net/10.1002/ghg.1594

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